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  • 1
    Electronic Resource
    Electronic Resource
    The development of major projections to the inferior olivary nucleus (1980)
    Springer
    Anatomy and embryology 160 (1980), S. 187-202 
    Details
    ISSN: 1432-0568
    Keywords: Development ; Olive ; Spinal ; Midbrain ; Cerebellum ; Cortex ; Opossum
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary We have employed degeneration techniques to study the ontogeny of major projections to the inferior olivary nucleus in the North American opossum, a species which is born 12 days after conception and which enjoys a protracted development in an external pouch. Subsequent to spinal lesions a small amount of axonal degeneration can be produced within the edge of the olive before subnuclei can be distinguished (7 days after birth, 24 mm, snout-rump length). Degenerating axons are present more deeply within the olive in animals operated 12 days after birth (30 mm, snout-rump length) and by at least day 16 (36 mm, snout-rump length), they are found in all of the regions they occupy in the adult animal. Subsequent to lesions which undercut all descending mesencephalic and diencephalic systems, a small amount of axonal degeneration is found at the dorsolateral edge of the olive by day 7 (23 mm, snout-rump length). Degenerating axons fill more of the olive, particularly caudally, after comparable lesions in older animals and by day 17 (38 mm, snout-rump length), degeneration is present in all of the olivary regions innervated by midbrain and thalamic axons in the adult opossum. There is some evidence that spinal, mesencephalic and diencephalic axons follow a caudal to rostral gradient in their intraolivary growth. Lesions which undercut neurites growing out of the cerebellum produce evidence for cerebello-olivary connections by day 17. Axons from the cerebral cortex reach their olivary targets considerably later than those from either the spinal cord, mesencephalon, diencephalon or cerebellum. It is not until approximately postnatal day 30 (55 mm, snout-rump length) that degenerating axons can be traced into the olive after lesions of the cortical mantle. These data indicate that the inferior olive receives major connections early in development and that there is an orderly sequence to their growth.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00301860
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    Paper (German National Licenses)
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  • 2
    Electronic Resource
    Electronic Resource
    The early development of corticobulbar and corticospinal systems (1980)
    Springer
    Anatomy and embryology 161 (1980), S. 197-213 
    Details
    ISSN: 1432-0568
    Keywords: Corticobulbar systems ; Corticospinal systems ; Development ; North American Opossum
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary The North American opossum is born 12 days after conception and is therefore available for experimental manipulation in an immature state. We have used the opossum to study the growth of cortical axons into the brainstem and spinal cord and have obtained evidence that such growth occurs in an orderly fashion. Cortical axons reach the ventral mesencephalon 12 days after birth and some of them have grown into the caudal medulla where they decussate by 23 days. At the latter stage immature cortical axons also distribute to the midbrain tegmentum, the basilar pons, the inferior olive and the hilum of the nucleus cuneatus. Cortical axons first enter the spinal cord about 30 days after birth where they are present in the white matter before growing into the dorsal horn. The forelimb placing reaction does not develop until well after cortical axons have reached cervical levels. Axons from the cerebral cortex grow into the spinal cord before there is evidence for cortical innervation of either the red nucleus or the bulbar reticular formation and well before pyramidal cells of the neocortex are mature. The relatively late development of corticospinal and corticobulbar systems contrasts markedly with the early growth of bulbospinal axons.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00305344
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    Paper (German National Licenses)
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  • 3
    Electronic Resource
    Electronic Resource
    Observations on the early development of ascending spinal pathways (1983)
    Springer
    Anatomy and embryology 166 (1983), S. 191-207 
    Details
    ISSN: 1432-0568
    Keywords: Development ; Spinal pathways ; Cerebellum ; Inferior olive ; Lateral reticular nucleus ; Reticular formation ; Thalamus
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary The development of ascending spinal pathways has been studied in the North American opossum using degeneration methods and the retrograde transport of horseradish peroxidase. Axons from caudal thoracic and/or lumbosacral levels of the spinal cord reach the lateral reticular nucleus, the inferior olivary complex, the reticular formation of the medulla and pons as well as the cerebellum very early in development. Innervation of the nucleus gracilis occurs somewhat later. Spinal axons grow into most of the caudal brain stem areas they occupy in the adult animal, including the nucleus gracilis, before there is convincing evidence that they reach the thalamus. Although spinal axons enter the cerebellum early in development their adult distribution with its characteristic discontinuities appears relatively late.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00305082
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    Paper (German National Licenses)
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  • 4
    Electronic Resource
    Electronic Resource
    “High spinal” dysrhaphism (1987)
    Springer
    Acta neurochirurgica 84 (1987), S. 136-139 
    Details
    ISSN: 0942-0940
    Keywords: Cervical vertebrae ; meningocele ; myelography ; spinal diseases
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Summary “High spinal” (cervical and upper thoracic) dysrhaphism usually involves either a meningocele or a dermal sinus tract. These high spinal lesions can have a complex intradural anatomy at the level of the lesion (as this case reports) and are associated with an increased incidence of lower spinal occult dysrhaphic anomalies. It is therefore recommended that patients with “high spinal” dysrhaphism undergo radiological evaluation of the entire spine to identify those patients with intradural anomalies, define the anatomy for surgery, and investigate the lower spine for associated occult anomalies.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF01418839
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    Paper (German National Licenses)
    Fulltext
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